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	/*
	* Copyright 1993-2019 NVIDIA Corporation. All rights reserved.
	*
	* NOTICE TO LICENSEE:
	*
	* This source code and/or documentation ("Licensed Deliverables") are
	* subject to NVIDIA intellectual property rights under U.S. and
	* international Copyright laws.
	*
	* These Licensed Deliverables contained herein is PROPRIETARY and
	* CONFIDENTIAL to NVIDIA and is being provided under the terms and
	* conditions of a form of NVIDIA software license agreement by and
	* between NVIDIA and Licensee ("License Agreement") or electronically
	* accepted by Licensee. Notwithstanding any terms or conditions to
	* the contrary in the License Agreement, reproduction or disclosure
	* of the Licensed Deliverables to any third party without the express
	* written consent of NVIDIA is prohibited.
	*
	* NOTWITHSTANDING ANY TERMS OR CONDITIONS TO THE CONTRARY IN THE
	* LICENSE AGREEMENT, NVIDIA MAKES NO REPRESENTATION ABOUT THE
	* SUITABILITY OF THESE LICENSED DELIVERABLES FOR ANY PURPOSE. IT IS
	* PROVIDED "AS IS" WITHOUT EXPRESS OR IMPLIED WARRANTY OF ANY KIND.
	* NVIDIA DISCLAIMS ALL WARRANTIES WITH REGARD TO THESE LICENSED
	* DELIVERABLES, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY,
	* NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE.
	* NOTWITHSTANDING ANY TERMS OR CONDITIONS TO THE CONTRARY IN THE
	* LICENSE AGREEMENT, IN NO EVENT SHALL NVIDIA BE LIABLE FOR ANY
	* SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, OR ANY
	* DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
	* WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS
	* ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE
	* OF THESE LICENSED DELIVERABLES.
	*
	* U.S. Government End Users. These Licensed Deliverables are a
	* "commercial item" as that term is defined at 48 C.F.R. 2.101 (OCT
	* 1995), consisting of "commercial computer software" and "commercial
	* computer software documentation" as such terms are used in 48
	* C.F.R. 12.212 (SEPT 1995) and is provided to the U.S. Government
	* only as a commercial end item. Consistent with 48 C.F.R.12.212 and
	* 48 C.F.R. 227.7202-1 through 227.7202-4 (JUNE 1995), all
	* U.S. Government End Users acquire the Licensed Deliverables with
	* only those rights set forth herein.
	*
	* Any use of the Licensed Deliverables in individual and commercial
	* software must include, in the user documentation and internal
	* comments to the code, the above Disclaimer and U.S. Government End
	* Users Notice.
	*/

	/* cublasXt : Host API, Out of Core and Multi-GPU BLAS Library

	*/

	#if !defined(CUBLAS_XT_H_)
	#define CUBLAS_XT_H_

	#include "driver_types.h"
	#include "cuComplex.h" /* import complex data type */

	#include "cublas_v2.h"

	#if defined(__cplusplus)
	extern "C" {
	#endif /* __cplusplus */

	struct cublasXtContext;
	typedef struct cublasXtContext* cublasXtHandle_t;

	cublasStatus_t CUBLASWINAPI cublasXtCreate(cublasXtHandle_t* handle);
	cublasStatus_t CUBLASWINAPI cublasXtDestroy(cublasXtHandle_t handle);
	cublasStatus_t CUBLASWINAPI cublasXtGetNumBoards(int nbDevices, int deviceId[], int* nbBoards);
	cublasStatus_t CUBLASWINAPI cublasXtMaxBoards(int* nbGpuBoards);
	/* This routine selects the Gpus that the user want to use for CUBLAS-XT */
	cublasStatus_t CUBLASWINAPI cublasXtDeviceSelect(cublasXtHandle_t handle, int nbDevices, int deviceId[]);

	/* This routine allows to change the dimension of the tiles ( blockDim x blockDim ) */
	cublasStatus_t CUBLASWINAPI cublasXtSetBlockDim(cublasXtHandle_t handle, int blockDim);
	cublasStatus_t CUBLASWINAPI cublasXtGetBlockDim(cublasXtHandle_t handle, int* blockDim);

	typedef enum { CUBLASXT_PINNING_DISABLED = 0, CUBLASXT_PINNING_ENABLED = 1 } cublasXtPinnedMemMode_t;
	/* This routine allows to CUBLAS-XT to pin the Host memory if it find out that some of the matrix passed
	are not pinned : Pinning/Unpinning the Host memory is still a costly operation
	It is better if the user controls the memory on its own (by pinning/unpinning oly when necessary)
	*/
	cublasStatus_t CUBLASWINAPI cublasXtGetPinningMemMode(cublasXtHandle_t handle, cublasXtPinnedMemMode_t* mode);
	cublasStatus_t CUBLASWINAPI cublasXtSetPinningMemMode(cublasXtHandle_t handle, cublasXtPinnedMemMode_t mode);

	/* This routines is to provide a CPU Blas routines, used for too small sizes or hybrid computation */
	typedef enum {
	CUBLASXT_FLOAT = 0,
	CUBLASXT_DOUBLE = 1,
	CUBLASXT_COMPLEX = 2,
	CUBLASXT_DOUBLECOMPLEX = 3,
	} cublasXtOpType_t;

	typedef enum {
	CUBLASXT_GEMM = 0,
	CUBLASXT_SYRK = 1,
	CUBLASXT_HERK = 2,
	CUBLASXT_SYMM = 3,
	CUBLASXT_HEMM = 4,
	CUBLASXT_TRSM = 5,
	CUBLASXT_SYR2K = 6,
	CUBLASXT_HER2K = 7,

	CUBLASXT_SPMM = 8,
	CUBLASXT_SYRKX = 9,
	CUBLASXT_HERKX = 10,
	CUBLASXT_TRMM = 11,
	CUBLASXT_ROUTINE_MAX = 12,
	} cublasXtBlasOp_t;

	/* Currently only 32-bit integer BLAS routines are supported */
	cublasStatus_t CUBLASWINAPI cublasXtSetCpuRoutine(cublasXtHandle_t handle,
	cublasXtBlasOp_t blasOp,
	cublasXtOpType_t type,
	void* blasFunctor);

	/* Specified the percentage of work that should done by the CPU, default is 0 (no work) */
	cublasStatus_t CUBLASWINAPI cublasXtSetCpuRatio(cublasXtHandle_t handle,
	cublasXtBlasOp_t blasOp,
	cublasXtOpType_t type,
	float ratio);

	/* GEMM */
	cublasStatus_t CUBLASWINAPI cublasXtSgemm(cublasXtHandle_t handle,
	cublasOperation_t transa,
	cublasOperation_t transb,
	size_t m,
	size_t n,
	size_t k,
	const float* alpha,
	const float* A,
	size_t lda,
	const float* B,
	size_t ldb,
	const float* beta,
	float* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtDgemm(cublasXtHandle_t handle,
	cublasOperation_t transa,
	cublasOperation_t transb,
	size_t m,
	size_t n,
	size_t k,
	const double* alpha,
	const double* A,
	size_t lda,
	const double* B,
	size_t ldb,
	const double* beta,
	double* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtCgemm(cublasXtHandle_t handle,
	cublasOperation_t transa,
	cublasOperation_t transb,
	size_t m,
	size_t n,
	size_t k,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	const cuComplex* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZgemm(cublasXtHandle_t handle,
	cublasOperation_t transa,
	cublasOperation_t transb,
	size_t m,
	size_t n,
	size_t k,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	const cuDoubleComplex* beta,
	cuDoubleComplex* C,
	size_t ldc);
	/* ------------------------------------------------------- */
	/* SYRK */
	cublasStatus_t CUBLASWINAPI cublasXtSsyrk(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const float* alpha,
	const float* A,
	size_t lda,
	const float* beta,
	float* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtDsyrk(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const double* alpha,
	const double* A,
	size_t lda,
	const double* beta,
	double* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtCsyrk(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZsyrk(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* beta,
	cuDoubleComplex* C,
	size_t ldc);
	/* -------------------------------------------------------------------- */
	/* HERK */
	cublasStatus_t CUBLASWINAPI cublasXtCherk(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const float* alpha,
	const cuComplex* A,
	size_t lda,
	const float* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZherk(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const double* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const double* beta,
	cuDoubleComplex* C,
	size_t ldc);
	/* -------------------------------------------------------------------- */
	/* SYR2K */
	cublasStatus_t CUBLASWINAPI cublasXtSsyr2k(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const float* alpha,
	const float* A,
	size_t lda,
	const float* B,
	size_t ldb,
	const float* beta,
	float* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtDsyr2k(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const double* alpha,
	const double* A,
	size_t lda,
	const double* B,
	size_t ldb,
	const double* beta,
	double* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtCsyr2k(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	const cuComplex* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZsyr2k(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	const cuDoubleComplex* beta,
	cuDoubleComplex* C,
	size_t ldc);
	/* -------------------------------------------------------------------- */
	/* HERKX : variant extension of HERK */
	cublasStatus_t CUBLASWINAPI cublasXtCherkx(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	const float* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZherkx(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	const double* beta,
	cuDoubleComplex* C,
	size_t ldc);

	/* -------------------------------------------------------------------- */
	/* TRSM */
	cublasStatus_t CUBLASWINAPI cublasXtStrsm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const float* alpha,
	const float* A,
	size_t lda,
	float* B,
	size_t ldb);

	cublasStatus_t CUBLASWINAPI cublasXtDtrsm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const double* alpha,
	const double* A,
	size_t lda,
	double* B,
	size_t ldb);

	cublasStatus_t CUBLASWINAPI cublasXtCtrsm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	cuComplex* B,
	size_t ldb);

	cublasStatus_t CUBLASWINAPI cublasXtZtrsm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	cuDoubleComplex* B,
	size_t ldb);
	/* -------------------------------------------------------------------- */
	/* SYMM : Symmetric Multiply Matrix*/
	cublasStatus_t CUBLASWINAPI cublasXtSsymm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const float* alpha,
	const float* A,
	size_t lda,
	const float* B,
	size_t ldb,
	const float* beta,
	float* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtDsymm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const double* alpha,
	const double* A,
	size_t lda,
	const double* B,
	size_t ldb,
	const double* beta,
	double* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtCsymm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	const cuComplex* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZsymm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	const cuDoubleComplex* beta,
	cuDoubleComplex* C,
	size_t ldc);
	/* -------------------------------------------------------------------- */
	/* HEMM : Hermitian Matrix Multiply */
	cublasStatus_t CUBLASWINAPI cublasXtChemm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	const cuComplex* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZhemm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	const cuDoubleComplex* beta,
	cuDoubleComplex* C,
	size_t ldc);

	/* -------------------------------------------------------------------- */
	/* SYRKX : variant extension of SYRK */
	cublasStatus_t CUBLASWINAPI cublasXtSsyrkx(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const float* alpha,
	const float* A,
	size_t lda,
	const float* B,
	size_t ldb,
	const float* beta,
	float* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtDsyrkx(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const double* alpha,
	const double* A,
	size_t lda,
	const double* B,
	size_t ldb,
	const double* beta,
	double* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtCsyrkx(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	const cuComplex* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZsyrkx(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	const cuDoubleComplex* beta,
	cuDoubleComplex* C,
	size_t ldc);
	/* -------------------------------------------------------------------- */
	/* HER2K : variant extension of HERK */
	cublasStatus_t CUBLASWINAPI cublasXtCher2k(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	const float* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZher2k(cublasXtHandle_t handle,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	size_t n,
	size_t k,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	const double* beta,
	cuDoubleComplex* C,
	size_t ldc);

	/* -------------------------------------------------------------------- */
	/* SPMM : Symmetric Packed Multiply Matrix*/
	cublasStatus_t CUBLASWINAPI cublasXtSspmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const float* alpha,
	const float* AP,
	const float* B,
	size_t ldb,
	const float* beta,
	float* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtDspmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const double* alpha,
	const double* AP,
	const double* B,
	size_t ldb,
	const double* beta,
	double* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtCspmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const cuComplex* alpha,
	const cuComplex* AP,
	const cuComplex* B,
	size_t ldb,
	const cuComplex* beta,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZspmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	size_t m,
	size_t n,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* AP,
	const cuDoubleComplex* B,
	size_t ldb,
	const cuDoubleComplex* beta,
	cuDoubleComplex* C,
	size_t ldc);

	/* -------------------------------------------------------------------- */
	/* TRMM */
	cublasStatus_t CUBLASWINAPI cublasXtStrmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const float* alpha,
	const float* A,
	size_t lda,
	const float* B,
	size_t ldb,
	float* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtDtrmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const double* alpha,
	const double* A,
	size_t lda,
	const double* B,
	size_t ldb,
	double* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtCtrmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const cuComplex* alpha,
	const cuComplex* A,
	size_t lda,
	const cuComplex* B,
	size_t ldb,
	cuComplex* C,
	size_t ldc);

	cublasStatus_t CUBLASWINAPI cublasXtZtrmm(cublasXtHandle_t handle,
	cublasSideMode_t side,
	cublasFillMode_t uplo,
	cublasOperation_t trans,
	cublasDiagType_t diag,
	size_t m,
	size_t n,
	const cuDoubleComplex* alpha,
	const cuDoubleComplex* A,
	size_t lda,
	const cuDoubleComplex* B,
	size_t ldb,
	cuDoubleComplex* C,
	size_t ldc);

	#if defined(__cplusplus)
	}
	#endif /* __cplusplus */

	#endif /* !defined(CUBLAS_XT_H_) */